Low-mass dark matter search using ionization signals in XENON100

Aprile, E.; Aalbers, J.; Agostini, F.; Alfonsi, M.; Amaro, F. D.; Anthony, M.; Arneodo, F.; Barrow, P.; Baudis, L.; Bauermeister, B.; Benabderrahmane, M. L.; Berger, T.; Breur, P. A.; Brown, A.; Brown, E.; Bruenner, S.; Bruno, G.; Budnik, R.; Buss, A.; Bütikofer, L.; Cardoso, J. M. R.; Cervantes, M.; Cichon, D.; Coderre, D.; Colijn, A. P.; Conrad, J.; Cussonneau, J. P.; Decowski, M. P.; De Perio, P.; DI GANGI, Pietro; Di Giovanni, A.; Duchovni, E.; Ferella, A. D.; Fieguth, A.; Franco, D.; Fulgione, W.; Galloway, M.; Garbini, M.; Geis, C.; Goetzke, L. W.; Greene, Z.; Grignon, C.; Gross, E.; Hasterok, C.; Hogenbirk, E.; Itay, R.; Kaminsky, B.; Kessler, G.; Kish, A.; Landsman, H.; Lang, R. F.; Levinson, L.; Le Calloch, M.; Levy, C.; Linde, F.; Lindemann, S.; Lindner, M.; Lopes, J. A. M.; Lyashenko, A.; Manfredini, A.; Marrodán Undagoitia, T.; Masbou, J.; Massoli, FABIO VALERIO; Masson, D.; Mayani, D.; Melgarejo Fernandez, A. J.; Meng, Y.; Messina, M.; Micheneau, K.; Miguez, B.; Molinario, A.; Murra, M.; Naganoma, J.; Oberlack, U.; Orrigo, S. E. A.; Pakarha, P.; Pelssers, B.; Persiani, R.; Piastra, F.; Pienaar, J.; Plante, G.; Priel, N.; Rauch, L.; Reichard, S.; Reuter, C.; Rizzo, A.; Rosendahl, S.; Rupp, N.; Dos Santos, J. M. F.; Sartorelli, Gabriella; Scheibelhut, M.; Schindler, S.; Schreiner, J.; Schumann, M.; Scotto Lavina, L.; Selvi, Marco; Shagin, P.; Simgen, H.; Stein, A.; Thers, D.; Tiseni, A.; Trinchero, G.; Tunnell, C. D.; Von Sivers, M.; Wall, R.; Wang, H.; Weber, M.; Wei, Y.; Weinheimer, C.; Wulf, J.; Zhang, Y.

doi:10.1103/PhysRevD.94.092001

We perform a low-mass dark matter search using an exposure of 30 kg×yr with the XENON100 detector. By dropping the requirement of a scintillation signal and using only the ionization signal to determine the interaction energy, we lowered the energy threshold for detection to 0.7 keV for nuclear recoils. No dark matter detection can be claimed because a complete background model cannot be constructed without a primary scintillation signal. Instead, we compute an upper limit on the WIMP-nucleon scattering cross section under the assumption that every event passing our selection criteria could be a signal event. Using an energy interval from 0.7 keV to 9.1 keV, we derive a limit on the spin-independent WIMP-nucleon cross section that excludes WIMPs with a mass of 6 GeV/c2 above 1.4×10-41 cm2 at 90% confidence level.

Aprile, E., Aalbers, J., Agostini, F., Alfonsi, M., Amaro, F.D., Anthony, M., et al. (2016). Low-mass dark matter search using ionization signals in XENON100. PHYSICAL REVIEW D, 94(9), 1-6 [10.1103/PhysRevD.94.092001].

Low-mass dark matter search using ionization signals in XENON100

Aprile, E.;Aalbers, J.;Agostini, F.;Alfonsi, M.;Amaro, F. D.;Anthony, M.;Arneodo, F.;Barrow, P.;Baudis, L.;Bauermeister, B.;Benabderrahmane, M. L.;Berger, T.;Breur, P. A.;Brown, A.;Brown, E.;Bruenner, S.;Bruno, G.;Budnik, R.;Buss, A.;Bütikofer, L.;Cardoso, J. M. R.;Cervantes, M.;Cichon, D.;Coderre, D.;Colijn, A. P.;Conrad, J.;Cussonneau, J. P.;Decowski, M. P.;De Perio, P.;DI GANGI, PIETRO;Di Giovanni, A.;Duchovni, E.;Ferella, A. D.;Fieguth, A.;Franco, D.;Fulgione, W.;Galloway, M.;Garbini, M.;Geis, C.;Goetzke, L. W.;Greene, Z.;Grignon, C.;Gross, E.;Hasterok, C.;Hogenbirk, E.;Itay, R.;Kaminsky, B.;Kessler, G.;Kish, A.;Landsman, H.;Lang, R. F.;Levinson, L.;Le Calloch, M.;Levy, C.;Linde, F.;Lindemann, S.;Lindner, M.;Lopes, J. A. M.;Lyashenko, A.;Manfredini, A.;Marrodán Undagoitia, T.;Masbou, J.;MASSOLI, FABIO VALERIO;Masson, D.;Mayani, D.;Melgarejo Fernandez, A. J.;Meng, Y.;Messina, M.;Micheneau, K.;Miguez, B.;Molinario, A.;Murra, M.;Naganoma, J.;Oberlack, U.;Orrigo, S. E. A.;Pakarha, P.;Pelssers, B.;Persiani, R.;Piastra, F.;Pienaar, J.;Plante, G.;Priel, N.;Rauch, L.;Reichard, S.;Reuter, C.;Rizzo, A.;Rosendahl, S.;Rupp, N.;Dos Santos, J. M. F.;SARTORELLI, GABRIELLA;Scheibelhut, M.;Schindler, S.;Schreiner, J.;Schumann, M.;Scotto Lavina, L.;SELVI, MARCO;Shagin, P.;Simgen, H.;Stein, A.;Thers, D.;Tiseni, A.;Trinchero, G.;Tunnell, C. D.;Von Sivers, M.;Wall, R.;Wang, H.;Weber, M.;Wei, Y.;Weinheimer, C.;Wulf, J.;Zhang, Y.

2016

Abstract

We perform a low-mass dark matter search using an exposure of 30 kg×yr with the XENON100 detector. By dropping the requirement of a scintillation signal and using only the ionization signal to determine the interaction energy, we lowered the energy threshold for detection to 0.7 keV for nuclear recoils. No dark matter detection can be claimed because a complete background model cannot be constructed without a primary scintillation signal. Instead, we compute an upper limit on the WIMP-nucleon scattering cross section under the assumption that every event passing our selection criteria could be a signal event. Using an energy interval from 0.7 keV to 9.1 keV, we derive a limit on the spin-independent WIMP-nucleon cross section that excludes WIMPs with a mass of 6 GeV/c2 above 1.4×10-41 cm2 at 90% confidence level.

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	Anno
	
				2016
			
	Rivista
	
				PHYSICAL REVIEW D
			
	Codice DOI
	
				https://dx.doi.org/10.1103/PhysRevD.94.092001
			
	Citazione
	
				Aprile, E., Aalbers, J., Agostini, F., Alfonsi, M., Amaro, F.D., Anthony, M., et al. (2016). Low-mass dark matter search using ionization signals in XENON100. PHYSICAL REVIEW D, 94(9), 1-6 [10.1103/PhysRevD.94.092001].
			
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						Aprile, E.; Aalbers, J.; Agostini, F.; Alfonsi, M.; Amaro, F. D.; Anthony, M.; Arneodo, F.; Barrow, P.; Baudis, L.; Bauermeister, B.; Benabderrahmane,...espandi
						
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/599442

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